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Phenylketonuria

Phenylketonuria (PKU) is a rare condition in which a baby is born without the ability to properly break down an amino acid called phenylalanine.

Causes

Phenylketonuria (PKU) is inherited, which means it is passed down through families. Both parents must pass on a nonworking copy of the gene in order for a baby to have the condition.

Babies with PKU are missing an enzyme called phenylalanine hydroxylase. It is needed to break down the essential amino acid phenylalanine. Phenylalanine is found in foods that contain protein.

Without the enzyme, levels of phenylalanine build up in the body. This buildup can harm the central nervous system and cause brain damage.

Symptoms

Phenylalanine plays a role in the body's production of melanin. The pigment is responsible for skin and hair color. Therefore, infants with the condition often have lighter skin, hair, and eyes than brothers or sisters without the disease.

Other symptoms may include:

Delayed mental and social skills

Head size much smaller than normal

Hyperactivity

Jerking movements of the arms or legs

Mental disability

Seizures

Skin rashes

Tremors

If PKU is untreated, or if foods containing phenylalanine are eaten, the breath, skin, ear wax, and urine may have a "mousy" or "musty" odor. This odor is due to a buildup of phenylalanine substances in the body.

Exams and Tests

PKU can be easily detected with a simple blood test. All states in the United States require a PKU screening test for all newborns as part of the newborn screening panel. The test is generally done by taking a few drops of blood from the baby before the baby leaves the hospital.

If the screening test is positive, further blood and urine tests are required to confirm the diagnosis. Genetic testing is also done.

Treatment

PKU is a treatable disease. Treatment involves a diet that is very low in phenylalanine, particularly when the child is growing. The diet must be strictly followed. This requires close supervision by a registered dietitian or doctor, and cooperation of the parent and child. Those who continue the diet into adulthood have better physical and mental health than those who don't stay on it. "Diet for life" has become the standard most experts recommend. Women who have PKU need to follow the diet before conception and throughout pregnancy.

There are large amounts of phenylalanine in milk, eggs, and other common foods. The artificial sweetener NutraSweet (aspartame) also contains phenylalanine. Any products containing aspartame should be avoided.

There are several special formulas made for infants with PKU. These can be used as a protein source that is extremely low in phenylalanine and balanced for the remaining essential amino acids. Older children and adults use a different formula that provides protein in the amounts they need. People with PKU need to take formula every day for their entire life.

Outlook (Prognosis)

The outcome is expected to be very good if the diet is closely followed, starting shortly after the child's birth. If treatment is delayed or the condition remains untreated, brain damage will occur. School functioning may be mildly impaired.

If proteins containing phenylalanine are not avoided, PKU can lead to mental disability by the end of the first year of life.

Possible Complications

Severe mental disability occurs if the disorder is untreated. ADHD (attention-deficit hyperactivity disorder) appears to be a common problem in those who do not stick to a very low-phenylalanine diet.

When to Contact a Medical Professional

Call your health care provider if your infant has not been tested for PKU. This is particularly important if anyone in your family has the disorder.

Prevention

An enzyme assay or genetic testing can determine if parents carry the gene for PKU. Chorionic villus sampling or amniocentesis can be done during pregnancy to screen the unborn baby for PKU.

It is very important that women with PKU closely follow a strict low-phenylalanine diet both before becoming pregnant and throughout the pregnancy. Buildup of phenylalanine will damage the developing baby, even if the child has not inherited the defective gene.

Phenylketonuria test - illustration

Blood is routinely drawn from newborn infants for testing. Blood is obtained by a heel stick and collected on a special blotter paper. Routine testing includes phenylketonuria and blood type. Many hospitals include other tests such as thyroid function, hemoglobin S (sickle cell disease), or may test for other blood disorders (hemoglobinopathies). Testing can be tailored to the local population, taking into account race and ethnic background in determining what routine testing should be done.

Phenylketonuria test

illustration

Phenylketonuria test - illustration

Blood is routinely drawn from newborn infants for testing. Blood is obtained by a heel stick and collected on a special blotter paper. Routine testing usually includes phenylketonuria, thyroid function, hemoglobin S (sickle cell disease), and may test for other disorders. Newborn screening programs vary from state to state. Testing can be tailored to the local population, determining what routine testing should be done.

Phenylketonuria test

illustration

Phenylketonuria test - illustration

Blood is routinely drawn from newborn infants for testing. Blood is obtained by a heel stick and collected on a special blotter paper. Routine testing includes phenylketonuria and blood type. Many hospitals include other tests such as thyroid function, hemoglobin S (sickle cell disease), or may test for other blood disorders (hemoglobinopathies). Testing can be tailored to the local population, taking into account race and ethnic background in determining what routine testing should be done.

Phenylketonuria test

illustration

Phenylketonuria test - illustration

Blood is routinely drawn from newborn infants for testing. Blood is obtained by a heel stick and collected on a special blotter paper. Routine testing usually includes phenylketonuria, thyroid function, hemoglobin S (sickle cell disease), and may test for other disorders. Newborn screening programs vary from state to state. Testing can be tailored to the local population, determining what routine testing should be done.